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# ============================================================================
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import torch
import torch.nn as nn
import torch.nn.functional as F
import torch.npu
import os
NPU_CALCULATE_DEVICE = 0
if os.getenv('NPU_CALCULATE_DEVICE') and str.isdigit(os.getenv('NPU_CALCULATE_DEVICE')):
    NPU_CALCULATE_DEVICE = int(os.getenv('NPU_CALCULATE_DEVICE'))
if torch.npu.current_device() != NPU_CALCULATE_DEVICE:
    torch.npu.set_device(f'npu:{NPU_CALCULATE_DEVICE}')

class FocalLoss(nn.Module):
    def __init__(self, gamma=0, alpha=None, size_average=True):
        super(FocalLoss, self).__init__()
        self.gamma = gamma
        self.alpha = alpha
        self.size_average = size_average

    def forward(self, input, target):
        if input.dim()>2:
            input = input.view(input.size(0),input.size(1),-1)  # N,C,H,W => N,C,H*W
            input = input.transpose(1,2)    # N,C,H*W => N,H*W,C
            input = input.contiguous().view(-1,input.size(2))   # N,H*W,C => N*H*W,C
        target = target.view(-1,1)

        logpt = F.log_softmax(input, dim=-1)
        logpt = logpt.gather(1,target)
        logpt = logpt.view(-1)
        pt = logpt.detach().exp()

        if self.alpha is not None:
            assert False

        loss = -1 * (1-pt)**self.gamma * logpt
        if self.size_average: return loss.mean()
        else: return loss.sum()

def create_loss():
    return FocalLoss(gamma = 2.0)